Pulsar PSBEN10A12E - v1.0 Operating instructions

Type
Operating instructions
PSBEN 10A12E
v.1.0
PSBEN 13,8V/10A/65Ah/EN
Buffer, switched mode power supply unit.
EN
Edition: 4 from 01.02.2013
Supersedes the: 3 from 20.11.2012edition
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CONTENTS
1. FUNCTIONAL REQUIREMENTS OF THE PSU COMPLIANT WITH PN-EN 50131-6............3
2.1.
G
ENERAL DESCRIPTION
........................................................................................................................................................4
2.2.
B
LOCK DIAGRAM
..................................................................................................................................................................4
2.3
D
ESCRIPTION OF
PSU’
S COMPONENTS AND CONNECTORS
.....................................................................................................5
3. OPERATING STATUS INDICATION.................................................................................................7
3.1.
C
ONTROL PANEL
. .................................................................................................................................................................7
3.2
O
VERVIEW OF CURRENT FAILURES
........................................................................................................................................8
3.3
O
VERVIEW OF FAILURE MEMO
...............................................................................................................................................8
3.4
S
ETTING THE COMMUNICATION PARAMETERS OF THE
PSU...................................................................................................8
3.4.1 Setting the parameters of the serial port.......................................................................................................................8
3.4.2 Setting the communication address...............................................................................................................................9
3.5
A
COUSTIC INDICATION
........................................................................................................................................................10
3.6
T
ECHNICAL OUTPUTS
. .........................................................................................................................................................10
3.7
I
NPUT OF COLLECTIVE FAILURE
:
EXT
IN. ...........................................................................................................................11
4. BATTERY-ASSISTED OPERATION................................................................................................11
4.1.
R
UNNING THE
PSU
FROM THE BATTERY
.............................................................................................................................11
4.2.
D
EEP DISCHARGE BATTERY PROTECTION
UVP...................................................................................................................11
4.3
D
YNAMIC BATTERY TEST
. ...................................................................................................................................................12
4.4.
S
TANDBY TIME
...................................................................................................................................................................12
4.5.
B
ATTERY CHARGING TIME
..................................................................................................................................................12
4.6
O
PERATION WITHOUT A BATTERY
. ......................................................................................................................................12
5. REMOTE MONITORING (OPTION: WI-FI, ETHERNET, RS485, USB)...................................13
5.1
C
OMMUNICATION IN THE WI
-
FI WIRELESS NETWORK
..........................................................................................................13
5.2
C
OMMUNICATION IN THE
ETHERNET
NETWORK
...............................................................................................................14
5.3
C
OMMUNICATION IN
RS485
NETWORK
. ..............................................................................................................................15
5.4
USB-TTL
COMMUNICATION
...............................................................................................................................................15
5.5
”P
OWER
S
ECURITY
PROGRAM
...........................................................................................................................................15
6. TECHNICAL SPECIFICATIONS......................................................................................................16
T
ABLE
6.
E
LECTRICAL SPECIFICATIONS
. ...................................................................................................................................16
T
ABLE
7.
M
ECHANICAL SPECIFICATIONS
...................................................................................................................................17
T
ABLE
8.
O
PERATION SAFETY
...................................................................................................................................................17
T
ABLE
9.
O
PERATING SPECIFICATIONS
......................................................................................................................................17
T
ABLE
10.
PSU’
S FACTORY SETTINGS
.......................................................................................................................................17
7. INSTALLATION...................................................................................................................................18
7.1
R
EQUIREMENTS
...................................................................................................................................................................18
7.2
I
NSTALLATION PROCEDURE
.................................................................................................................................................18
8. OPERATION AND USE.......................................................................................................................19
8.1.
O
VER VOLTAGE PROTECTION
OVP
AT THE
PSU
OUTPUT
. ..................................................................................................19
8.2
O
VERLOAD OF THE
PSU......................................................................................................................................................19
8.3
S
HORT CIRCUIT AT THE
PSU
OUTPUT
. .................................................................................................................................19
8.4.
M
AINTENANCE
...................................................................................................................................................................19
9. PSU FAILURE CODES........................................................................................................................20
Features:
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PN-EN50131-6 compliance, grades 1÷3 and II
environmental class
mains supply of 230VAC
uninterrupted voltage of 13,8VDC
fitting battery: 65Ah/12V
high efficiency 80%
PSU current efficiency:
5,41A – for grades 1 , 2 *
2,16A – for grades 3 **
10A – for general use ***
(see: chapter 2.1)
low level of voltage ripple
microprocessor-based automation system
intelligent management of PSU power’s output stage
SERIAL’ communication port with implemented
MODBUS RTU protocol
remote monitoring (option: WiFi, Ethernet, RS485,
USB)
free program - ‘PowerSecurity’ for monitoring the PSU
operation parameters
load current control
output voltage control
output fuse status control
dynamic battery test
battery circuit continuity control
battery voltages control
battery fuse status control
battery charge and maintenance control
deep discharge battery protection (UVP)
battery overcharge protection
battery output protection against short circuit and reverse
polarity connection
jumper selectable battery charging current
0,6A/1,5A/2,2A/3A
remote battery test (additional module required)
START button for battery activation
STOP button for disconnecting during battery-assisted
operation
optical indication – LED panel
output current readings
output voltage readings
failure codes with history
optical indication of PSU overload OVL
acoustic indication of failure
adjustable times indicating AC power failure
technical inputs/outputs with galvanic isolation
collective failure input EXT IN
EPS technical output indicating AC power loss
PSU technical output indicating PSU failure
APS technical output indicating battery failure
internal memory of PSU operating status
protections:
SCP short circuit protection
OLP overload protection
OHP overheat protection
OVP over voltage protection
surge protection
against tampering: unwanted opening of the
enclosure or detachment from the mounting surface
convectional cooling
warranty – 5 year from the production date
1. Functional requirements of the PSU compliant with PN-EN 50131-6.
Requirements of
PN-EN 50131-6
Functional requirements
Grade 1 Grade 2 Grade 3
PSBEN10A12E
EPS network absence YES YES YES YES
Battery low voltage YES YES YES YES
Protection against full battery discharge - - YES YES
Battery fault - - YES YES
No battery charge - - YES YES
Output low voltage - - YES YES
Output high voltage - - YES YES
PSU fault - - YES YES
Surge protection - - YES YES
Short circuit protection YES YES YES YES
Overload protection YES YES YES YES
Output fuse activation - - - YES
Battery fuse fault - - - YES
EPS technical output YES YES YES YES
APS technical output YES YES YES YES
PSU technical output YES YES YES YES
Collective failure input - - - YES
Remote battery test - - - YES
Tamper resistance – enclosure opening YES YES YES YES
Tamper resistance – detachment from the
mounting surface
- - YES YES
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2. Technical description.
2.1. General description.
The buffer power supply has been designed in accordance with the requirements of the PN-EN 50131-6
standard, grade 3 and II environmental class. It is intended for an uninterrupted supply to alarm system devices
requiring stabilized voltage of 12V/DC (+/-15%).
Depending on a required protection level of the alarm system in the installation place, the PSU efficiency
and the battery charging current ought to be measured as follows:
* Grade 1, 2 - standby time 12h
Output voltage 5,41A + 3A battery charge
** Grade 3 - standby time 30h if the faults of the main power source are reported to the Alarm Receiving
Centre - ARC (in accordance with 9.2 – PN-EN 50131-1).
Output voltage 2,16A + 3A battery charge
- standby time 60h if the faults of the main power source are reported to the Alarm Receiving
Centre - ARC (in accordance with 9.2 – PN-EN 50131-1).
Output voltage 1,08A + 3A battery charge
*** General use if the PSU is not mounted within an installation which is PN-EN-50131 compliant, the
acceptable current efficiency amounts to:
1. Output voltage 10A + 0,6A battery charge
2. Output voltage 9,1A + 1,5A battery charge
3. Output voltage 8,4A + 2,2A battery charge
4. Output voltage 7,6A + 3A battery charge
Total current of the receivers + battery: 10,6A max.
In case of power decay, a battery back-up is activated immediately. The PSU is housed in a metal
enclosure (colour: RAL 9005 - black) which can accommodate a 65Ah/12V battery. It features micro switches that
indicate unwanted door opening (faceplate) and detaching from the mounting surface.
2.2. Block diagram.
The PSU has been manufactured based on a high-duty system of DC/DC converter. It features a
microprocessor-based operation control, responsible for full diagnostics of the PSU and battery
parameters.
Fig. 1. Block diagram of the PSU.
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2.3 Description of PSU’s components and connectors.
Table 1. Elements of the PSU pcb (see Fig. 2).
Element
no.
Description
[1] PANEL – optical indication connector
[2]
P
BAT
; pin - adjustment of battery protection function UVP
P
BAT
= battery protection (disconnection) off
P
BAT
= battery protection (disconnection) on
T
AC
; pins J1, J2 - adjustable time lag of AC power failure indication
J1= , J2= time lag T= 5s
J1= , J2= time lag T= 140s
J1= , J2= time lag T= 17m
J1= , J2= time lag T= 2h 20m
Caption: jumper on, jumper off
Operation without a battery
- In this mode, the automation mode enables adjustments of the PSU output voltage
without failure indication concerning battery operation.
[3]
I
BAT
– pin - battery charging current selection
J1= , J2= J3= I
BAT
=0,6 A
J1= , J2= J3= I
BAT
=1,5 A
J1= , J2= J3= I
BAT
=2,2A
J1= , J2= , J3= I
BAT
=3,0 A Caption: jumper on, jumper off
[4]
START – button (launching the PSU from a battery)
STOP – button (disconnection of the PSU during battery-assisted operation)
[5]
– pin; activation of the acoustic indication
- indication on
- indication off Caption: jumper on, jumper off
[6] V
ADJ
– potentiometer, DC voltage adjustment
[7] BUZER – acoustic indicator
[8] F
BAT
– fuse in the battery circuit
[9]
Connectors:
~AC~ – AC power input
+BAT DC power battery output
+AUX – DC power output (+AUX= +U, -AUX=GND)
EPS FLT – technical output of AC network absence indication
open = AC power failure
close = AC power - O.K.
PSU FLT – technical output of PSU failure
open = failure
close = PSU working correctly - O.K.
APS FLT – technical output of battery failure
open = battery failure
close = battery O.K.
EXT IN – output of collective failure
[10] V
EXT
pin – polarisation of EXT IN circuit
[11] Communication connector
[12]
LEDs – optical indication:
AC – presence of the AC power
AUX DC output voltage
OVL PSU overload
PSU PSU failure
APS battery failure
EXT – EXT IN output’s status
LB – battery charge
[13] OVP – optical indication for activating the over voltage system
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Fig. 2. The view of the PSU’s pcb. Table 2. PSU elements (see fig. 3).
Element no. Description
[1]
Insolation transformer
[2]
PSU board (tab.1, fig.2)
[3] TAMPER; micro-switch (contacts) of tamper resistance (NC)
[4] F
MAIN
fuse in the supply circuit (230 V AC)
[5]
L-N 230V/AC power connector, PE connector
[6]
Battery connectors: positive: +BAT = red, negative: - BAT = black
[7]
Grip of tamper resistance
Fig.3. The view of the PSU.
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3. Operating status indication.
3.1. Control panel.
The PSU is equipped with a panel with buttons and an LED display which enables reading the basic
parameters of the device. The buttons are for selecting and approving a certain parameter that is to be displayed.
Fig. 4. Control panel.
Table 3. A description of the buttons and LEDs of the LED panel.
- parameter selection
- selection approval
- red LED – indicates presence of the AC voltage
- red LED – indicates overload of the PSU
- red LED – indicates failure of the PSU
- red LED – indicates battery failure
- green LED – indicates power at the AUX output of the PSU
- three yellow LEDs – indicate battery charging level
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Fig. 5. Menu of the display.
FLt - PSU fault memo (30 last events)
Io - AUX output current measurement [A]
Uo - AUX output voltage measurement [V]
Resolution for voltage measurement amounts to 0.1V, for current measurement: 0.1A.
Displayed voltage and current rates are only approximate. For higher accuracy, a multimeter shall
be used.
3.2 Overview of current failures.
If any incorrect electrical parameters occur, the PSU will signal the failure by illuminating an appropriate LED
on the panel or by activating an acoustic indication (provided it has not been switched off). After pressing the ‘OK’
button, the panel display will show a code of the fault that trigger the failure. If more than one failure occurs
simultaneously, another pressing the ‘OK’ button will display the next failure code.
In chapter 9 all possible failure codes that can appear during the PSU’s operation have been shown. Each
code is accompanied by an appropriate LED indication on the panel, acoustic indication and switching of a
dedicated technical output.
3.3 Overview of failure memo.
The device remembers 30 last failures in non-volatile memory which enables a subsequent overview.
Entering the failure memo overview mode:
With the “<”, “>” buttons choose the FLt position and approve by pressing OK”. The number of the failure will be
displayed, then its code. Pressing “OK” again will display the next failure in the memory.
3.4 Setting the communication parameters of the PSU.
Communication in the RS485 bus requires setting appropriate communication parameters in all power
supply units and assigning appropriate addresses.
All power supplies have a preset address 1.
3.4.1 Setting the parameters of the serial port.
- press the ‘<,>’ right and left-most buttons simultaneously
on the LED panel
- press ‘OK.’ after appearing of ‘Adr’
- with ‘>’ or ‘<’ set the address from 1 to 247.
- confirm the address with the ‘OK’ button
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3.4.2 Setting the communication address.
- press simultaneously the right and left-most buttons on the LED panel
- the abbr ‘Adr’ will appear on the display
- press the ‘>’ right arrow button
- the abbr ‘trS’ will appear on the display
- press ‘OK’
- now, on the display there will appear either ‘9.6’ or ‘19.2’ – values
informing of the transmission’s speed
- with ‘>’ or ‘<’ set the transmission’s speed to 19200,
which is displayed as ‘19.2’
- approve the setting with the ‘OK’ button
- the abbr ‘trS’ will be displayed again
- press the ‘>’ right arrow button
- press ‘OK’ after appearing of ‘trP’ on the display
- now, one of the following abbreviations will be displayed: ‘8n2’, ‘8E1’ or ‘8o1
- with ‘>’ or ‘<’ set the ‘8E1’ parameter
- approve your choice with the ‘OK’ button
- finish the configuration procedure by pressing simultaneously the ’<,>’ buttons
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3.5 Acoustic indication.
Emergency situations are acoustically indicated. The frequency and the number of signals depend on an event
type (see chapter 9). The acoustic indication is off after removing an appropriate jumper (fig. 2, [5]).
Table 4. Acoustic indication.
No. Description Event
1
1 signal per 10s, battery-assisted operation No 230V AC supply
2
1 signal per 10s, mains operation Battery fault, undercharged battery
3
2 signals per 10s, battery-assisted operation Low level of battery charge
4
Fast signals, battery-assisted operation
The PSU will be disconnected due to the battery
discharge
5
Continuous indication PSU failure [see chapter 9]
6
1 signal Breaking the battery test
7
2 signals Activation of the battery test
3.6 Technical outputs.
The PSU feature indication outputs, with galvanic isolation, which change state if any of the following event
occur:
EPS FLT – output indicating AC power loss.
The output indicates AC power loss. Under normal status with the 230V AC supply, the output is
close. In case of a power failure the PSU will switch the output into the open state after a period of time
determined by the T
AC
(J1, J2) jumpers.
J1= , J2= time lag T= 5s
J1= , J2= time lag T= 140s
J1= , J2= time lag T= 17m
J1= , J2= time lag T= 2h 20m
Caption: jumper on, jumper off
APS FLT - output indicating battery failure.
The output indicates a failure in the battery circuit. Under normal status (during correct operation) the
output is close. In case of a failure the PSU will switch the output into the open state. Any failures can be
triggered by the following events:
- a faulty or undercharged battery
- battery voltage below 11,5V during battery-assisted operation
- battery fuse fault
- no continuity in the battery circuit
PSU FLT - output indicating PSU failure.
The output indicates the PSU failure. Under normal status (during correct operation) the output is close.
In case of a failure the PSU will switch the output into the open state. Any failures can be triggered by the
following events:
- low output voltage Uaux<11,8V
- high output voltage Uaux>14,7V
- high battery voltage Uaku>14V (during battery test)
- polymer fuse PTC activation
- exceeding the PSU nominal current
- failure in the battery charging circuit
- activation of the over voltage protection OVP
The technical outputs have been implemented with galvanic isolation between the PSU’s systems and the
attached devices.
Fig. 6. Electrical diagram of the technical outputs.
TAMPER - output that indicates tampering with the PSU enclosure: output with volt-free (potential-
free) contacts indicating the door status and PSU detachment from the mounting surface. NC contacts: the
PSU is locked and fixed to the dedicated surface.
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3.7 Input of collective failure: EXT IN.
The EXT IN (external input) technical input indicating a collective failure is intended for additional, external
devices that generate the failure signal. If voltage appears at the EXT IN input, it will cause generating a PSU
failure, storing the information about the event in the internal memo and sending the signal about the failure to the
PSU FLT output.
The EXT IN technical input has been implemented with galvanic isolation between the PSU’s systems and the
devices attached.
Fig. 7. Electrical diagram of the EXT IN input.
The electrical diagram below shows the way of connecting external devices to the EXT IN input. Outputs
such as: OC (open collector), relay type or tamper may be used as a source of the signal.
Fig. 8. Examples of connections.
In the option with tamper switches, the V
EXT
jumper must be on. It polarises the EXT IN input circuit
therefore is required in such configuration.
The EXT IN input has been adjusted to cooperate with fuse modules that generate a failure signal in case
of a fuse fault in any of output sections (e.g. AWZ535, AWZ536). To guarantee a correct cooperation between the
module and the EXT IN input, the V
EXT
jumper must be on and the connections are to be made accordingly to the
diagram below.
Fig. 9. Example of a connection with the fuse module: AWZ535 or AWZ536.
4. Battery-assisted operation.
4.1. Running the PSU from the battery.
The PSU has been equipped with two buttons on the pcb board which enable running or disconnecting the
PSU during battery-assisted operation.
Running the PSU from the battery: press the START button on the main board and hold for 1s.
Disconnecting the PSU from the battery: press the STOP button on the main board and hold for 5s.
4.2. Deep discharge battery protection UVP.
The PSU is equipped with the disconnection system and the discharged battery indication. If the voltage at
the battery terminals drops below100.2V during battery-assisted operation, the PSU will be disconnected within
approx. 15s. The protection mode is off when the P
BAT
jumper is removed.
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Caution.
Deactivating of the UVP function is not recommended since a deep discharge of the battery limits its
capability of storing energy, lowers its capacity and shortens its durability.
4.3 Dynamic battery test.
The PSU runs a battery test every 10 minutes. It is done by a momentary switching into a battery-assisted
operation. A failure is indicated when voltage drops below 12V. The battery test facility can be switched off.
Deactivating/activating the test: during mains-powered PSU operation press the STOP button on the
main board and hold it for 3 seconds. The device will confirm the activation/deactivation in the following ways:
(Tab.4, [6], [7]).
testing off – the tOF sign appears on the display
testing on – the tON sign appears on the display
Deactivating/activating the test is stored in the memory even after unplugging the device from
mains. The battery failure indication at the APS FLT output is automatically switched off. The
battery protection system against deep discharged remains on, though.
4.4. Standby time.
The standby time during batter-assisted operation depends on: battery capacity, battery charge level and
load current. In order to keep the standby time, the current drawn from the PSU during battery-assisted operation
should be limited. Characteristics for a 65Ah/12V SLA:
Grade 1, 2 - standby time 12h
Output current 5,41A + 3A battery charge
Grade 3 - standby time 30h if the faults of the main power source are reported to the Alarm Receiving
Centre - ARC (in accordance with 9.2 – PN-EN 50131-1).
Output current 2,16A + 3A battery charge
- standby time 60h if the faults of the main power source are reported to the Alarm Receiving
Centre - ARC (in accordance with 9.2 – PN-EN 50131-1).
Output current 1,08A + 3A battery charge
4.5. Battery charging time.
The PSU has a battery circuit charged with direct current. The current selection is done via I
BAT
jumpers.
The table below shows how long it takes to charge a (fully discharged) battery up to min. 80% of its nominal
capacity.
Table 5. Battery charging time.
65Ah
battery charging time
up to capacity of 0,8*C
Charging
current [A]
Configuration of
I
BAT
jumper
19h30m 3
J1= , J2= , J3=
26h36m 2,2
J1= , J2= J3=
39h 1,5
J1= , J2= J3=
- 0,6
J1= , J2= J3=
4.6 Operation without a battery.
In case of an expected PSU operation without an attached battery, make a necessary configuration of
jumpers:
In this mode the automation system allows adjustments of PSU’s output voltage without indicating a failure
connected with working of the battery.
CAUTION. During operation without battery assistance the PSU does not perform any parameter
control that monitors its proper operation. Therefore, this mode ought to be chosen thoughtfully.
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5. Remote monitoring (option: Wi-Fi, Ethernet, RS485, USB).
The PSU has been adjusted to operate in a system that requires a remote control of the parameters in a
monitoring centre. Transmitting data concerning PSU status is possible due to an additional, external
communication module that is responsible for communication in Wi-Fi, Ethernet or RS485 standard.
A USB –TTL interface enables connection between the PSU and a computer.
In the further part of the chapter, there are presented different connection topologies which serve as examples
since more communication variations are possible. For more examples, study the manuals of particular interfaces.
5.1 Communication in the wi-fi wireless network.
The Wi-Fi wireless communication is to be implemented on the basis of additional interfaces: WI-Fi ‘INTW
and RS485-WiFi operating within 2,4GHz frequency band, accordingly to the IDEE 802.11b standard.
The WiFi ‘INTW’ interface stall be mounted in a selected location inside the enclosure so that the serial
protrudes outwards.
Fig.10. WI-FI communication with the use of the WI-FI ”INTW” interface”.
The RS485-WiFi ‘INTRW’ interface is a device intended for converting signals between the RS485 bus and
the Wi-Fi network. To work correctly, the device requires external power supply within the range of 10÷30V DC e.g.
drawn from a PSU of the PSBEN series. The device is mounted in a hermetic enclosure that protects it against
adverse environmental conditions.
Fig. 11. WI-FI communication with the use of the RS485-WIFI ‘INTRW’ interface.
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5.2 Communication in the ETHERNET network.
Communication in the Ethernet network is possible due to the additional interfaces: Ethernet INTE’ and
RS485-ETH, compliant with the IEEE802.3 standard.
The Ethernet ‘INTE’ interface feature full galvanic isolation and protection against surges. It shall be mounted
inside the PSU enclosure.
Fig. 12. Ethernet communication with the use of the ‘INTE’ interface.
The RS485-ETHERNET ‘INTRE’ interface is a device intended for converting signals between the RS485
bus and the Ethernet network. To work correctly, the device requires external power supply within the range of
10÷30V DC e.g. drawn from a PSU of the PSBEN series. The physical connection is safe due to embed galvanic
isolation. The device is mounted in a hermetic enclosure that protects it against adverse environmental conditions.
Fig. 13. Ethernet communication with the use of the RS485-Ethernet ‘INTRE’ interface.
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5.3 Communication in RS485 network.
Another kind of network communication is the RS485 that uses a two-wire transmission line. To implement
this kind of data exchange, the PSU needs to be equipped with the additional RS485-TTL ”INTR” interface which
converts data from the PSU into the RS485 standard and the USB-RS485 ”INTUR” one that converts data from the
RS485 network to a USB. These interfaces feature full galvanic isolation and protection against surges.
Fig. 14. RS485 communication with the use of the interfaces: ”INTR” and ”INTUR”.
5.4 USB-TTL communication.
If the PSU does not cooperate with any of previously mentioned network and the access to the parameters’
adjustment and memo readings are necessary, the USB-TTL ”INTU” needs to be used. This interface allows direct
connection between the computer and the PSU and it is recognisable by the operating system as a virtual COM
port.
Fig. 15. KUSB-TTL communication with the use of the USB-TTL ”INTU” interface.
5.5 ”Power Security” program.
”Power Security” is a computer program that has been created for displaying and analysing the information
sent from the PSU installation spots. Here is its front panel:
Fig. 16. Front panel of “Power security” program.
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The main panel of the program has been formulated in such a way that it is possible to divide it into smaller
areas, depending on the number of power supplies.
The program enables both a visualisation and an analysis of the received data. Exceeding of the acceptable
parameters is indicated by highlighting in red the appropriate area or by twinkling of the indicator. Particular tabs
contain a chart with an overview of the PSU parameters and failure memo along with the information about status
and the electrical specifications of the technical outputs.
The ”Power Security” program is available on our website: www.pulsar.pl
Its detailed description can be found in the manual of the program.
6. Technical specifications.
Electrical specifications (tab.6).
Mechanical specifications (tab.7).
Operation safety (tab.8).
Operating specifications (tab.9).
Factory settings (tab. 10).
Table 6. Electrical specifications.
PSU type
A, protection grade 1÷3, II environmental class
Mains supply
230V/AC (-15%/+10%)
Current consumption
1,1 A
Power frequency
50Hz
PSU’s power
146 W
Efficiency
80%
Output voltage
11,0V÷13,8 V DC – buffer operation
10,0V÷13,8 V DC – battery-assisted operation
Output current - for grades 1, 2:
Io = 5,41A + 3A battery charge
- for grade 3:
Io = 2,16A + 3A battery charge - (connection with ARC
required, compliant with 9.2 – PN-EN 50131-1)
Io = 1,08A + 3A battery charge
- for general use:
Io = 10A + 0,6A battery charge
Io = 9,1A + 1,5A battery charge
Io = 8,4A + 2,2A battery charge
Io = 7,6A + 3A battery charge
Output voltage setting, escalation and keeping
time
8ms / 3ms / 25ms
Output voltage adjustment range
12,0 V÷ 14,5 V
Ripple voltage
80 mV p-p max.
Current consumption by the PSU systems
during batter-assisted operation
I = 22 mA
Battery charging current
0,6A /1,5A/2,2A/3A –I
BAT
jumper selectable
Low battery voltage indication
Ubat < 11,5V,
during battery-assisted operation
Over voltage protection OVP
U>15,5V,
disconnection of the output voltage, automatic return
(AUX+ disconnection)
Short circuit protection SCP
200% ÷ 250%
of the PSU power - current limiting and/or fuse
fault in the battery circuit (fuse-element replacement required)
Overload protection OLP
Program - equipment
Battery circuit protection SCP and reverse
polarity connection
T10A-
current limiting, F
BAT
fuse (failure requires fuse-element
replacement)
Deep discharge battery protection UVP
U<10,0 V (± 2%) –
disconnection (-BAT) of the battery,
configuration with jumper P
BAT
- type – electronic, max 50mA/30V DC, galvanic isolation
1500V
RMS
-
time lag, approx.
5s/140s/17m/2h 20m (+/-5%)
- type – electronic, max 50mA/30V DC, galvanic isolation
1500V
RMS
- type – electronic, max 50mA/30V DC, galvanic isolation
1500V
RMS
Technical outputs:
- EPS FLT;
output indicating AC power failure
- APS FLT;
output indicating battery failure
- PSU FLT;
output indicating PSU failure
- TAMPER output indicating enclosure opening
and detaching from the mounting surface
- microswitches x2,
NC contacts (enclosure closed ad fixed to
the mounting surface)
, 0,5A@50V DC (max.)
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17
EXT IN technical input
Voltage ’on’ – 10
÷
30V DC
Voltage ’off’ – 0
÷
2V DC
Level of galvanic isolation: 1500V
RMS
Optical indication:
- LEDs on the PSU’s pcb,
- LED panel
output current readings
output voltage readings
failure codes with history
Acoustic indication:
- piezoelectric indicator ~75dB /0,3m, switchable via jumper
F
BAT
fuse
F
MAIN
fuse
T 10A / 250V
T 6,3A / 250V
Additional accessories (not included)
- interface USB-TTL ‘INTU’; communication: USB-TTL
- interface RS485 ‘INTR’; communication: RS485
- interface USB-RS485 ‘INTUR’; communication: USB-RS485
- interface Ethernet ‘INTE’; communication: Ethernet
- interface WiFi “INTW’; wireless communication: Wi-Fi
- interface RS485-Ethernet “INTRE’; communication: RS485-
Ethernet
- interface RS485-WiFi “INTRW’; wireless communication:
RS485-WiFi
Table 7. Mechanical specifications.
Enclosure dimensions 400 x 370 x 178 (405 x 375 x 170+8) (WxHxD) [mm] (+/- 2)
Fixing 370x 336 x Φ 6 x4 (WxH)
Fitting battery 65Ah/12V (SLA) max.
Net/gross weight 9,3/9,9kg
Enclosure Steel plate DC01 1,2mm, colour RAL 9005 (black)
Closing Cheese head screw x2 (at the front), lock assembly possible
Connectors Supply: Φ0,51÷2 (AWG 24-12)
Outputs : Ф0,51÷2 (AWG 24-12), battery outputs BAT: Ф6 (M6-0-2,5) 56cm
TAMPER output: wires, 25cm
Notes The enclosure does not adjoin the assembly surface so that cables can be led.
Convectional cooling.
Table 8. Operation safety.
Protection class PN-EN 60950-1:2007 I (first)
Protection grade PN-EN 60529: 2002 (U) IP20
Electrical strength of insulation:
- between input (network) circuit and output circuits of the PSU (I/P-O/P)
- between input circuit and PE protection circuit (I/P-FG)
- between output circuit and PE protection circuit (O/P-FG)
3000 V/AC min.
1500 V/AC min.
500 V/AC min.
Insulation resistance:
- between input circuit and output or protection circuit
100 M, 500V/DC
Table 9. Operating specifications.
Operating temperature -10ºC...+40ºC
Storage temperature -20ºC...+60ºC
Relative humidity 20%...90%, without condensation
Vibrations during operation unacceptable
Impulse waves during operation unacceptable
Direct insolation unacceptable
Vibrations and impulse waves during transport PN-83/T-42106
Table 10. PSU’s factory settings.
Indication time of EPS network loss 5s
Battery charging current 3A
Battery presence YES (battery present)
Battery test YES (activated)
Deep discharge battery protection UVP YES (battery protected)
Communication address 1
Transmission 19.2k 8E1
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7. Installation.
7.1 Requirements.
The buffer PSU is to be mounted by a qualified installer, holding relevant permits and licenses (applicable
and required for a given country) for 230V/AC interference and low-voltage installations. The unit should be
mounted in confined spaces, in accordance with the II environmental class, with normal relative humidity (RH=90%
maximum, without condensation) and temperature from -10°C to +40°C. The PSU shall work in a vertical p osition
that guarantees sufficient convectional air-flow through ventilating holes of the enclosure.
As the PSU is designed for a continuous operation and is not equipped with a power-switch, therefore an
appropriate overload protection shall be guaranteed in the power supply circuit. Moreover, the user shall be
informed about the method of unplugging (most frequently through separating and assigning an appropriate fuse in
the fuse-box). The electrical system shall follow valid standards and regulations.
7.2 Installation procedure.
CAUTION!
Before installation, cut off the voltage in the 230V power-supply circuit.
To switch off power use an external switch in which the distance between the contacts of all poles in the
disconnection state is not less than 3mm.
1. Mount the PSU in a selected location. It is crucial to bolt the tamper grip to the mounting surface. The grip is
located in the central part of the enclosure (see fig. 3 [7]) and guarantees indication in case of any attempts of
detaching the device from the mounting surface. Proper installation is one of the requirements of the PN-EN
50131-6 standard.
Fig. 17. Fixing a tamper grip.
2. Connect the power cables (~230Vac) to L-N terminals of the PSU. Connect the ground wire to the terminal
marked by the earth symbol: PE. Use a three-core cable (with a yellow and green PE protection wire) to make the
connection. Lead the cables to the appropriate terminals through the insulating bushing.
The shock protection circuit shall be performed with a particular care, i.e. the yellow and green wire coat
of the power cable shall stick to one side of the terminal - marked with the PE symbol on the PSU
enclosure. Operation of the PSU without the properly made and fully operational shock protection circuit
is UNACCEPTABLE! It can cause a device failure or an electric shock.
3. Connect the receivers’ cables to the +AUX, -AUX connectors of the terminal block on the PSU board.
4. If necessary, connect the device’s leads to the technical inputs and outputs:
- EPS FLT; technical output of AC power loss indication (alarm panel, controller, indicator, etc.)
- PSU FLT; technical output of the PSU failure.
- APS FLT; technical output of the battery failure.
- TAMPER; output indicating enclosure opening or detaching from the assembly surface.
- EXT IN; collective failure output
5. With the I
BAT
jumper determine the maximum battery charging current, in accordance with the battery
parameters.
6. With the P
BAT
jumper determine if the discharged battery disconnection system U<10V (+/-5%) shall be on or off.
The battery protection is on when the P
BAT
jumper is removed.
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7. Switch on the ~230V AC supply (red AC diode and green AUX diode should be lit).
8. Check the output voltage (the PSU voltage without load and without a battery should amount to 13,7V ÷ 13,9V,
with a battery or during battery charging process: 11,0V÷13,8V). If the value of the voltage requires adjustment, it
should be set by the V
ADJ
potentiometer, monitoring the voltage at the AUX output of the PSU.
9. Connect the batteries in accordance with the markings: +BAT red to 'plus', -BAT black to 'minus’. The LB diode
should be on during battery charging process.
10. With the STOP button, activate or deactivate a dynamic battery test. Deactivating the test turns out the PSU
failure indication at the APS FLT output, but it does not affect the protection system against complete battery
discharge.
11. Check the current consumption of the receivers allowing of the battery charging current no to exceed the total
current efficiency of the PSU.
12. Once the tests and operation control have been completed, the enclosure can be locked.
8. Operation and use.
8.1. Over voltage protection OVP at the PSU output.
In case of voltage exceeding 15.5V±0.5V at the regulator’s output, the system cuts off the power at the
outputs to protect the battery and the receivers from damage. The outputs will be battery-powered. The protection
system is indicated by illuminating of the OVP red LED on the pcb board, PSU FLT output status change into Hi-Z
(high impedance), by sound and appropriate message on the PSU front panel.
8.2 Overload of the PSU.
The PSU has been equipped with a LED OVL (overload) indicator light on the pcb. It informs about the
output overload status. If the nominal current of the PSU is exceeded, the indicator light will be lit and the
microprocessor will proceed to a specially implemented procedure. If the overload threatens the PSU’s power
grade, the control system will decide about a disconnection of the AUX output. Restart will occur after 1 minute.
8.3 Short circuit at the PSU output.
In the case of a short circuit at the AUX or BAT output (load 200% ÷ 250% of the PSU power) or a reverse
polarity connection, the F
BAT
fuse in the battery circuit becomes permanently damaged and the restoration of the
voltage at the BAT output requires replacement of the fuse.
8.4. Maintenance.
Any and all maintenance operations may be performed following the disconnection of the PSU from the
power supply network. The PSU does not require performing any specific maintenance measures. However, in
the case of significant dust level, clean its interior with compressed air. In the case of a fuse replacement, use a
replacement of the same parameters.
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9. PSU FAILURE CODES.
LED indication Failure
code
EXT
OVL AC PSU APS
Acoustic
indication
Technical
outpust
actvatin
Fault description Causes
F01
- - - - -
1 beep
per 10s
EPS FLT
Battery-assisted
operation
- No AC mains
supply
- Faulty main fuse
F
MAIN
F02
- -
ON
twinkles - ON
PSU FLT PTC polyswitch
activation at the
AUX output
- Overloaded AUX
output
F03
- -
ON
- twinkles ON
APS FLT
Blown fuse of the
battery F
BAT
- Short circuit in the
battery circuit
- Short circuit in the
AUX output circuit
- Overloaded AUX
output
F04
-
ON ON
ON
-
ON
PSU FLT
-
- Overloaded AUX
output
F05
- -
ON
- ON
1 beep
per 10s
APS FLT
Faulty battery*
- Drained battery
- Undercharged
battery
- Unplugged battery
F06
- -
ON
1 flash - ON
PSU FLT
Too high output voltage
- Output voltage
>14.7V
F07
- -
ON
2 flashes - ON
PSU FLT Too high battery
voltage*
- Battery voltage
> 14V
F08
- -
ON 3 flashes - ON
PSU FLT
Battery charging circuit
failure
- Too low output
voltage of the PSU,
set <13V
- Fault in the battery
charging circuit
F09
- -
ON
4 flashes - ON
PSU FLT
Too low output voltage
- Output voltage
<11.8V (during buffer
operation)
F10
- - - - ON
2 signals
per 10s
APS FLT
Too low battery voltage
- Battery voltage
drops below 11.5V
(during battery-
assisted operation)
F11
- - - - ON
Fast
audible
signals
APS FLT
PSU disconnection
caused by battery
discharge
- Battery voltage
drops below 10V
(during battery-
assisted operation)
F12
ON
- -
ON
-
ON PSU FLT Activation of the EXT IN
collective failure input
-
F50
-
- -
ON
-
ON PSU FLT Internal damage of the
PSU
-
F51
- - - ON - ON PSU FLT Error in setting memo -
F60
- - - - - - -
No communication Broken cord between
the PSU and the
display
F61-64
- - - - - - - Desktop fault -
F65
- - - - - - -
- Password unblocking
procedure
* failure indication only during a battery test
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Pulsar PSBEN10A12E - v1.0 Operating instructions

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Operating instructions

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